An apparatus for the actuation of a throttle valve, in particular a throttle valve arranged in an intake system of an internal combustion engine, uses a servomotor, in which apparatus at least one device for thermal decoupling is arranged between the throttle valve and servomotor. A shaft of the servomotor is coupled to a shaft of the throttle valve via a torque-transmitting coupling element with a definedly low heat transfer capability.

A coupling comprises a pair of members: a first member comprising an outer convex spherical periphery centred about a central point and a torsional axis extending through the central point, and a second annular member has an inner concave spherical periphery centred on the central point and complementary to the outer periphery of the inner first member. The spherical surfaces of the inner and outer members co-act to transmit radial loads and loads acting along the common. Axles extend radially of the central point and couples the first and second annular for transmitting torsional load from one to the other. The each of the pair of members is rotatable one relative to the other about the said central point in a direction constrained by the axle arrangement.

A drive transmission device, which is included in an image forming apparatus, includes a first drive transmitter having a first hollow body, a second drive transmitter having a second hollow body, a link device, and a releasing device. The link device links the first and second drive transmitters and includes a first inserting body with a projection, a second inserting body with a projection, and a link body. The first and second drive transmitters have respective grooves in the first and second hollow body in an axial direction. The second drive transmitter is disposed at an end portion of a shaft of a rotary body detachably attached to a housing of an image forming apparatus. The releasing device relatively moves the link device to the second drive transmitter in the axial direction and releases a link of the driving force between the rotary body and the image forming apparatus.

An universal joint configured to transfer rotational movement from a first shaft to a second shaft at an angle and method of manufacturing the same.

An x-joint configured to transfer rotational movement from a first shaft to a second shaft at an angle and method of manufacturing the same.

A surgical tool including a socket having a housing and an aperture within the housing, the socket configured to receive a ball and a pin at least partially in the aperture. The ball is positioned at least partially in the socket and configured to rotate within the socket, the ball comprising an elongated opening extending through the ball. The pin is coupled to the socket and disposed at least partially in the socket on opposite sides of the socket, the pin including a first longitudinal axis and extending through the elongated opening of the ball between opposite sides of the socket. The ball is configured to partially rotate about the first longitudinal axis of the pin, and partially rotate, about a second axis perpendicular to the first longitudinal axis of the pin, in a plane aligned with the elongated opening.

An end member disposed in an end portion of a columnar rotating body, comprising: a shaft member; and a bearing member to which the shaft member is attached, wherein the bearing member includes a rotating force transmission pin, a tubular body, and a pin holding portion, the shaft member includes a rotating shaft, a rotating force receiving portion, and a base end portion.

A drive transmission mechanism which transmits a rotational driving force to a roller to be shifted in directions of a rotational axis thereof is equipped with a rotary drive transmission member which is driven to rotate in a predetermined rotational direction, a holder which holds the roller in such a manner that the roller can slide freely in the rotational axis directions while rotating about the rotational axis, and a one-way clutch interposed between the rotary drive transmission member and the holder. The one-way clutch is configured to transmit a rotational driving force from the rotary drive transmission member to the holder, and also to permit the holder to rotate in the predetermined rotational direction relative to the rotary drive transmission member.

A drive transmission device, which is included in an image forming apparatus, includes a drive transmission device including first and second rotary bodies, first and second grooves, a link device linking the first and second rotary bodies, a stopper, a guide groove, and a communication portion. The link device includes first and second inserting bodies and a link body linking the first and second inserting bodies. The stopper stops the first projection from being detached from the first groove. The guide groove guides the first projection into the first hollow body. The communication portion causes the guide groove and the first groove to communicate with each other. The first hollow body relieves the second projection closer to the first rotary body than the stopper in the axial direction of the first rotary body and in the direction of rotation of the first rotary body in assembly.

A mounting assembly is provided, including: a drive coupler shaped to engage a coupling member on a shaft positionable within a container defining an aperture to allow passage of the shaft; and a funnel positioned within the aperture to receive the drive coupler and guide the drive coupler to the coupling member. The assembly provides ergonomic advantages as the user is not required to lift the drive to reach the aperture.